RU2014126827A - METHOD FOR DETERMINING SURFACE PROPERTIES OF ROCKS - Google Patents

Abstract

A method for determining the surface properties of rocks, namely, that the extracted and dried rock core sample is pre-saturated with formation water or a model of produced water under vacuum and the initial amount of water in the pores of the sample is determined, then the sample is centrifuged in a standard basket to replace water with air with different angular speeds in the range from the minimum number of revolutions of the centrifuge to the number of revolutions ensuring the creation of residual water saturation in the sample, record the minimum but the achieved water saturation at each value of the centrifuge rotor rotational speed in the specified range is determined by the weight of the sample with residual water saturation and the capillary pressure curve is built, which determines the probable size distribution of drained pores, after which the core sample with residual water is saturated with oil or an isoviscous oil model under vacuum, determine the amount of hydrocarbons in the pores of the sample, centrifuged the sample in an invert basket to replace hydrocarbons with liquid displacing ages with various angular velocities ranging from the minimum number of revolutions of the centrifuge to the number of revolutions ensuring the creation of residual oil saturation, the minimum oil saturation is recorded for each value of the rotation speed of the centrifuge rotor in the specified range and a capillary impregnation curve is constructed, by which, by differentiating the distribution areas of the drained pores, size distribution of pores impregnated with a displacing agent, according to which the calculated value of cos at

Claims (1)

A method for determining the surface properties of rocks, namely, that the extracted and dried rock core sample is pre-saturated with formation water or a model of produced water under vacuum and the initial amount of water in the pores of the sample is determined, then the sample is centrifuged in a standard basket to replace water with air with different angular speeds in the range from the minimum number of revolutions of the centrifuge to the number of revolutions ensuring the creation of residual water saturation in the sample, record the minimum but the achieved water saturation at each value of the centrifuge rotor rotational speed in the specified range is determined by the weight of the sample with residual water saturation and the capillary pressure curve is built, which determines the probable size distribution of drained pores, after which the core sample with residual water is saturated with oil or an isoviscous oil model under vacuum, determine the amount of hydrocarbons in the pores of the sample, centrifuged the sample in an invert basket to replace hydrocarbons with liquid displacing ages with various angular velocities ranging from the minimum number of revolutions of the centrifuge to the number of revolutions ensuring the creation of residual oil saturation, the minimum oil saturation is recorded for each value of the rotation speed of the centrifuge rotor in the specified range and a capillary impregnation curve is constructed, by which, by differentiating the distribution areas of the drained pores, size distribution of pores impregnated with a displacing agent, according to which the calculated value of cos the contact angle as a function of pore size, depending on the obtained capture inflection point about which the rank in the art of hydrocarbon held by capillary forces and adsorption forces.